As with all elements of the aging process, the human endocannabinoid system loses tone over time. Whether it is a reduction in the numbers of cannabinoid receptors or a slow waning of the machinery used to create the signaling molecules that bind to the receptors or the natural senescence of the system that supports all of these normal signaling processes, the fact remains that adults over 50 are best-suited for external support for the endocannabinoid system.

Indeed, the average age at dispensaries is surprising to most who are not familiar with the modern medical cannabis arena. Baby Boomers, perhaps more than any other age group, tend to dominate the medical cannabis dispensaries. This is no new phenomenon, however. Through the ages, across cultures and around the globe, cannabis has been consumed primarily by older adults. Whether by tribe elders, wise councilmen, spiritual leaders, or the educated elite, cannabis has been an integral part of human aging for as long as we have recorded history.

Here, a review out of Israel followed at 184 patients over 65 (average age was 81.2) beginning cannabis treatment. 63.6% were female. “After six months of treatment, 58.1% were still using cannabis. Of these patients, 33.6% reported adverse events, the most common of which were dizziness (12.1%) and sleepiness and fatigue (11.2%). Of the respondents, 84.8% reported some degree of improvement in their general condition.”

Appropriately, the authors advise caution for older adults related to those adults who may be consuming multiple pharmaceuticals, for potential medication interaction effects, as well as nervous system impairment, and increased cardiovascular risk for those who may quire the concern. Wisely, they recommend that “Medical cannabis should still be considered carefully and individually for each patient after a risk-benefit analysis and followed by frequent monitoring for efficacy and adverse events.”

Dr. Caplan and the #MDTake:

At CED Clinic, we have long seen that the average age of medical patients is over 50. Whether for concerns related to sleep, pain, mental or physical health, it seems as though Baby Boomers have either weathered enough politics to have developed a healthy cynicism for the misinformation campaigns of the 1930s and 1970s, or they have direct or indirect experience with cannabis to have learned of its safety and efficacy. Either way, it is quickly reclaiming its historical place in the care of older adults, although oddly… it seems to be a demographic skipped over by the marketing systems of most establishments in the cannabis arena, at least for now.

Regulation of noradrenergic and serotonergic systems by cannabinoids: relevance to cannabinoid-induced effects

In Summary:

Among many system-wide interactive effects, the noradrenergic and serotonergic hormone/signaling systems are responsible for pain, mood, arousal, wakefulness, learning, anxiety, and feelings of reward. A recent review dives deeper into the interactions between cannabinoids and these two systems: cannabinoids play roles in exciting, inhibiting, and regulating the nerve activity and feedback of both the noradrenergic and serotonergic systems. This data further underscores the therapeutic potential of cannabis for conditions such as depression, chronic pain, and insomnia, all of which are mediated, at least in part, by these systems. Further research may uncover more specific therapies targeted toward the noradrenergic and serotonergic systems and their interactions with cannabinoids.

Dr. Caplan and the #MDTake:

It would be shocking to imagine that, in addition to the usual fruits and vegetables on display at supermarkets, all of a sudden, there was a new category of healthy food. Similarly, the recognition that cannabinoids play a central role in animal physiology is embarrassingly recent. Surveying a sea of illnesses that have become increasingly common, over the last hundred years, before which cannabis was a common household product, also begs the question about a relationship between the circumstances. Might some of the common maladies of modern medicine be attributable to a cannabinoid deficiency syndrome?

Prenatal maternal cannabis and tobacco use is predictive of behavioral problems among toddlers. Resulting differences from control groups include anxiety, depression, and attention problems. Female children of mom’s consuming substances, in particular, seem to be more susceptible to problems relating to internalization, attention, and sleep. Additionally, the behavioral problems induced by prenatal cannabis and tobacco consumption often lead to further maternal substance consumption, which frequently exacerbates existing behavioral problems.

A recent study found significant mental and physical health differences between veterans who use cannabis that they label as “medicinal” use versus those who prefer to label their use as “recreational.” Veterans who feel that they are self-medicating with cannabis, in what they believe fits more closely with a “medical” label are five times more likely to suffer from post-traumatic stress disorder (PTSD), nearly four times more likely to suffer from Major Depressive Disorder, and are more likely to experience Insomnia, or trouble sleeping. Furthermore, a majority of veterans medicating with cannabis suffer from conditions that qualify them to receive a medical marijuana registration card. Even so, they tend to refrain from discussing their interest in access with their doctors, out of fear of losing their valuable VA benefits.

Dr. Caplan and the #MDTake:

Over the years, countless veterans have valiantly and courageously dedicated themselves to missions of support for their fellow men, women, and country. In preparation, training, service, battle, leadership, education, and so many other ways, veterans have given back to their culture in a way few others can. The understanding that they may be shunned by their culture for seeking help, related to the suffering they may have experienced while serving their country, is unconscionable. It is shameful that the government and military have not appreciated and supported the easy opportunity to give back to our veterans, and it is long overdue that the culture gives back to those who have given a piece of themselves so that others may share the liberties they have served to uphold.

Current evidence of cannabinoid-based analgesia obtained in preclinical and human experimental settings

In Summary:

Pre-clinical animal models of pain provide a wealth of data supporting the pain-relief capabilities of cannabis; however, reproducing this data in human clinical trials has proved difficult. Data from the animal pre-clinical trials point to cannabinoids reducing stress responses and pain-evoked stress, desensitizing pain receptors, and increased pain sensitivity in animals that lack cannabinoid receptors. However, human trials present conflicting results: several studies have shown dose-dependent relationships, and in the current review this was experienced by many participants, wherein lower and medium doses provided pain relief, but higher doses triggered increased sensitivity to pain. Controlled studies may show a lack of impressive pain relief effects, personal reports of pain relief associated with cannabis use are nearly universal in retrospective reports. This suggests that there may be an important effect on well-being or mood, rather merely sensory pain. Furthermore, the relieving effects of cannabis appear to impact men and women differently.

Dr. Caplan and the #MDTake:

Additionally, much of pain relief is subjective, in both sensation, description, and inside the study environment. The description of pain varies from person to person, and researchers may be asking the wrong questions to the right people or the right questions to the wrong people. In fact, a growing perspective is that this mismatch may be more common and more pronounced than previously recognized. The makeup of pain is also quite complicated. For instance, a limb might hurt, but if there is swelling or tenderness nearby, those may amplify the discomfort. How can we take the full picture into account in the form of helpful data points? What of the emotional or psychological impacts of pain? Is it even possible that such things can be fully understood, let alone measured reliably? Assuming that emotional phenomenon or stress/suffering can be conveyed to research scientists, how can we ever hope to compare one person’s experience to another’s? For example, one would imagine that frustration associated with the pain experienced by a venerable world war veteran, who has previously endured tremendous and complex pains and associated psychological trauma may be quite different from someone who has never experienced a particular pain before.

In a recent Cochrane meta-analysis of studies investigating the use of medical cannabis for chronic neuropathic pain management, the authors determined that no results were what they could consider “high quality.” All data which related to degrees of pain relief, adverse events, and “Patient Global Impression of Change” were largely of very low or low quality, with some outcomes being of moderate quality. The meta-analysis concluded that no existing evidence backs up the use of cannabis for chronic neuropathic pain; however, the quality of evidence examined highlights the need for more controlled studies.

Dr. Caplan and the #MDTake:

Depending on the system of organization one prefers, pain can be divided up into different subtypes. For one system, it’s three subtypes: neuropathic, nociceptive, and “other.” For another system, pain can be organized by timing (sharp, acute, chronic, breakthrough), location (bone, soft tissue, nerve, referred, phantom), or by the relative system (emotional, cancer, body.) This review discusses the subtype category of “neuropathic pain” as a means of grouping pain to study. The measures used to assess the pain are as subjective as the categories themselves. Clearly, compounding the two subjective divisions is unlikely to produce “high quality” data, but it is a misleading interpretation to take away that there is no good quality information to glean from the observations this review organizes, and also a misinterpretation to jump to an idea that cannabis is not helpful. Rather, given the statistical tools we currently use, and the subjective systems of understanding pain are not well-matched to translating the effects of cannabis on pain into this type of data.

Cannabis Use in Individuals with Spinal Cord Injury or Moderate to Severe Traumatic Brain Injury in Colorado

In Summary:

Spinal cord injury patients report that medical cannabis helped them alleviate many symptoms of their injury including spasticity, pain, sleepdisruptions, stress, and anxiety. Traumatic brain injury patients list their reason for use as reducing stress/anxiety and improving sleep. Both groups of patients reported recreational use prior to and following injury for a variety of reasons.

Dr. Caplan and the #MDTake:

Healing from traumatic injuries is never solely a matter of local tissue changes. The injured tissues, and the experience of being injured create ripple effects which can disrupt multiple other organ systems, and the entire experience of normalcy. A chemical stress response is one of the most common (and often adaptive) responses to an injury, but the burden of stress, adapting to a new illness, and associated loss of normalcy and sleep can be disastrous to the process of healing. As anxiety and sleeplessness snowball into daily problems themselves, a kernel of injury sometimes amplifies to become a life-altering change.

A Dutch study investigated sleep disturbances in adolescents. Sleep disruption was linked to cannabis use, psychosocial difficulties, health risk behavior, and increased suicidality. Additionally, gender disparity in results suggests that girls may be more susceptible to sleep disturbances than boys , a result consistent with past recognition of some gender discrepancies in cannabis activity. These results highlight the importance of discouraging haphazard cannabis use, during adolescence, and the need for further gender-focused research surrounding sleep habits and cannabis use.

Dr Caplan, CED Foundation, and the #MDTake:

There are a few important issues that converge in this review. Generally, the question of adolescents’ use, (as an alternative way of describing the question of effects on a developing brain.) Also, this paper raises valuable questions about how cannabis may be interacting with sleep hygiene, for better or for worse. Psychosocial impact and risky behaviors are very complex topics to engage, even with a fairly large population sample of (n=16,781.) There are lots of intercorrelated topics assessed, analyzed, and discussed in the review, and it is all-too-easy to want to find causal patterns that are not apparent, again for better or worse, unless one chooses to construe the results or interpretation with causation in mind. Realistically, it is very likely to find overlap in a population of adolescents who have psychosocial difficulties, engage in risky behaviors, have increased risk of suicidality, and consume cannabis. To point to one of the components, arbitrarily, as the primary cause of the others is to unnecessarily and unjustly oversimplify a complex set of circumstances. The essential tenet, different genders seem to react differently with cannabis, is an excellent take-away, and also that we have much more still to learn.

Reduction in Cannabis Use and Functional Status in Physical Health, Mental Health, and Cognition

In a survey of 111 cannabis use disorder (CUD) patients with abstinent, low use, or heavy use of cannabis, similar benefits were experienced by patients who reduced their use to zero or low use. Both groups exhibited significantly better outcomes than the heavy use group with respect to overall health, appetite, and depression. According to the study, CUD patients “who used cannabis at a low level did not differ from the abstinent individuals in any of the functional outcome measures.” With a relatively small subject population, it is challenging to know if this is applicable to broader audiences, but regardless, It is likely to open up some new treatment option for CUD patients.

Cannabinoid receptors have been found to regulate the function of co-expressed mu-opioid receptors. Researchers have found data that indicates the constitutive activity within the cannabinoid system reduced the capacity of expressed mu-opioid receptor functions. This research brings to light the possible benefits of modulating opioid consumption with cannabis-based medicines.

Dr Caplan Discussion Points:

One of the interesting discussion points in this paper is a close look at the effects of the CB1 receptor and its capacity to reduce the function of some mu-opioid receptors, through a mechanism different than naloxone. This suggests some appropriate optimism for cannabinoid-based tools in the battle against the worldwide opioid epidemic.